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An approach of intelligent decision for an infrastructure distributed home automation using wireless sensors and actuators

Grant number: 14/06330-5
Support type:Scholarships in Brazil - Doctorate
Effective date (Start): August 01, 2014
Effective date (End): May 31, 2018
Field of knowledge:Physical Sciences and Mathematics - Computer Science
Principal researcher:Jó Ueyama
Grantee:Geraldo Pereira Rocha Filho
Home Institution: Instituto de Ciências Matemáticas e de Computação (ICMC). Universidade de São Paulo (USP). São Carlos , SP, Brazil

Abstract

In recent years, one of the main global challenges is associated with energy efficiency, being energy waste one of the factors to be highlighted. Such waste can be overcome by using the Home Automation System (HAS). However, HASs are heavily dependent on its internal network, since this is the basis of a smart home. In this scenario, the Wireless Sensor and Actor Networks (WSAN) is a promising solution, ubiquitous and of easy deployment to be used as infrastructure in a home automation system. However, the use of the WSAN as infrastructure to monitor and act in the decision-making within the context of a home automation system provides challenges. Such challenges refer back not only the lack of a method to act in the decision-making process within the network to reduce energy consumption of the residents, but also in the absence to investigate a trade-off between accuracy of the information and energy consumption of the sensors to prolong the useful life of the infrastructure. Moreover, the lack of a fully distributed infrastructure, flexible and that addresses the needs of the residents are some of the new problems to be explored. In this context, this research project aims to propose a distributed home automation system using wireless sensors and actuators. For this purpose, methods-based solutions on machine learning to act in the decision process within own network, as well as solutions of data aggregation will be proposed. Thus, the system will be aware not just in the lifetime of the network, but also the energy consumption of the residents. Still, through distributed data, will be reused the physical largeness of the environment, such as presence, temperature and humidity, to correlate the applications (for instance, air conditioning and/or lighting) in the decision process. For instance, the air conditioning system can turn off or increase the temperature when the lighting system detects absence of residents in the environment.

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Scientific publications (5)
(References retrieved automatically from Web of Science and SciELO through information on FAPESP grants and their corresponding numbers as mentioned in the publications by the authors)
MANO, LEANDRO Y.; FAICAL, BRUNO S.; NAKAMURA, LUIS H. V.; GOMES, PEDRO H.; LIBRALON, GIAMPAOLO L.; MENEGUETE, RODOLFO I.; FILHO, GERALDO P. R.; GIANCRISTOFARO, GABRIEL T.; PESSIN, GUSTAVO; KRISHNAMACHARI, BHASKAR; et al. Exploiting IoT technologies for enhancing Health Smart Homes through patient identification and emotion recognition. COMPUTER COMMUNICATIONS, v. 89-90, p. 178-190, . (13/18859-8, 14/19076-0, 14/06330-5, 14/10685-3)
MENEGUETTE, RODOLFO I.; FILHO, GERALDO P. R.; GUIDONI, DANIEL L.; PESSIN, GUSTAVO; VILLAS, LEANDRO A.; UEYAMA, JO. Increasing Intelligence in Inter-Vehicle Communications to Reduce Traffic Congestions: Experiments in Urban and Highway Environments. PLoS One, v. 11, n. 8, . (15/11536-4, 14/06330-5, 15/18898-9)
UEYAMA, JO; FREITAS, HEITOR; FAICAL, BRUNO S.; FILHO, GERALDO P. R.; FINI, PEDRO; PESSIN, GUSTAVO; GOMES, PEDRO H.; VILLAS, LEANDRO A.. Exploiting the Use of Unmanned Aerial Vehicles to Provide Resilience in Wireless Sensor Networks. IEEE COMMUNICATIONS MAGAZINE, v. 52, n. 12, p. 81-87, . (12/22550-0, 14/06330-5)
FILHO, GERALDO P. R.; VILLAS, LEANDRO A.; FREITAS, HEITOR; VALEJO, ALAN; GUIDONI, DANIEL L.; UEYAMA, JO. ResiDI: Towards a smarter smart home system for decision-making using wireless sensors and actuators. Computer Networks, v. 135, p. 54-69, . (15/21642-6, 14/06330-5)
FURQUIM, GUSTAVO; FILHO, GERALDO P. R.; JALALI, ROOZBEH; PESSIN, GUSTAVO; PAZZI, RICHARD W.; UEYAMA, JO. How to Improve Fault Tolerance in Disaster Predictions: A Case Study about Flash Floods Using IoT, ML and Real Data. SENSORS, v. 18, n. 3, . (15/21642-6, 14/06330-5)
Academic Publications
(References retrieved automatically from State of São Paulo Research Institutions)
FILHO, Geraldo Pereira Rocha. Intelligent decision-making solutions for residential infrastructures. 2018. Doctoral Thesis - Universidade de São Paulo (USP). Instituto de Ciências Matemáticas e de Computação (ICMC/SB) São Carlos.

Please report errors in scientific publications list by writing to: cdi@fapesp.br.